Legal claims defining the scope of protection. Each claim is shown in both the original legal language and a plain English translation.
1. A calculation device to be coupled between a plurality of transmission nodes and a reception node in a distributed processing system, the calculation device comprising: a memory, and a processor coupled to the memory and configured to execute a process, the process comprising: calculating coefficients of an equation, the coefficients corresponding to a number of transmission nodes having an abnormality among a plurality of transmission nodes, based on a numeric value including state information of the transmission nodes having the abnormality and identification information for identifying the transmission nodes having the abnormality; and transmitting the coefficients to the reception node, wherein the reception node extracts the numeric value from a solution of the equation using the coefficients and controls the distributed processing system based on the numeric value.
This invention relates to a calculation device for use in a distributed processing system, addressing the challenge of detecting and managing abnormalities in transmission nodes to ensure system stability and performance. The device is positioned between multiple transmission nodes and a reception node, acting as an intermediary to process and relay critical system state information. The calculation device includes a memory and a processor that executes a process to identify and quantify abnormalities in the transmission nodes. The processor calculates coefficients for an equation, where these coefficients correspond to the number of transmission nodes experiencing abnormalities. The calculation is based on numeric values that include state information of the abnormal nodes and identification information to distinguish them. Once the coefficients are determined, they are transmitted to the reception node. The reception node uses these coefficients to solve the equation, extracting the original numeric value that represents the state of the abnormal nodes. This extracted information is then used to control the distributed processing system, allowing for real-time adjustments or corrective actions based on the detected abnormalities. The system ensures that the reception node can accurately interpret and respond to the state of the transmission nodes, maintaining system integrity and performance.
2. The calculation device according to claim 1 , in the transmitting, when the number of transmission nodes having the abnormality is one, the numeric value including the state information of the transmission node having the abnormality and the identification information for identifying the transmission node having the abnormality is transmitted to the reception node as the coefficient.
This invention relates to a calculation device for monitoring and transmitting state information in a network of transmission nodes. The problem addressed is the need for efficient and reliable communication of node abnormalities to a reception node, particularly when only a single node in the network exhibits an issue. The calculation device is designed to detect abnormalities in transmission nodes within a network. When an abnormality is detected in a single transmission node, the device generates a numeric value that encapsulates both the state information of the abnormal node and identification information to uniquely identify that node. This numeric value is then transmitted to a reception node as a coefficient, allowing the reception node to quickly determine which node is faulty and its current state. The system ensures minimal data transmission while providing critical diagnostic information. The device operates by continuously monitoring the status of each transmission node in the network. Upon detecting an abnormality in one node, it constructs a numeric value that combines the node's state data (e.g., error codes, operational status) with its unique identifier. This value is formatted as a coefficient, which is then sent to the reception node. The reception node can decode this coefficient to extract the node's identity and state, enabling prompt troubleshooting or corrective actions. This approach optimizes network communication by reducing the amount of data transmitted while ensuring that essential diagnostic information is conveyed efficiently. The system is particularly useful in large-scale networks where rapid identification of faulty nodes is critical for maintaining operational integrity.
3. The calculation device according to claim 1 , in the calculating, when the number of transmission nodes having the abnormality is two, the coefficients of a quadratic equation are calculated based on two numeric values each including the state information and the identification information of the respective transmission nodes having the abnormality.
This invention relates to a calculation device for analyzing abnormalities in a network of transmission nodes. The device identifies and processes state information from nodes exhibiting abnormalities to determine the cause or impact of the issue. Specifically, when exactly two nodes are detected as abnormal, the device calculates coefficients for a quadratic equation using numeric values derived from the state and identification information of those two nodes. These coefficients are then used to solve the quadratic equation, enabling further analysis or decision-making based on the results. The solution addresses the challenge of efficiently diagnosing network issues by leveraging mathematical modeling to interpret abnormal node behavior. The device may also include features for collecting, storing, and processing node data, as well as generating outputs such as alerts or corrective actions. The quadratic equation approach allows for a structured and scalable method of handling multiple abnormal nodes, improving network reliability and troubleshooting efficiency.
4. The calculation device according to claim 1 , in the calculating, when the number of transmission nodes having the abnormality is three or more, the coefficients of the equation are calculated based on a sum value of the numeric value including the state information and the identification information of the respective transmission nodes having the abnormality and a fixed value in accordance with the number of transmission nodes having the abnormality.
This invention relates to a calculation device for detecting abnormalities in a network of transmission nodes. The problem addressed is accurately identifying and quantifying abnormalities when multiple nodes exhibit issues, ensuring reliable network diagnostics. The calculation device processes state information and identification information from transmission nodes to detect abnormalities. When three or more nodes have abnormalities, the device calculates coefficients for an equation used in the detection process. These coefficients are derived from a sum of numeric values representing the state and identification information of the abnormal nodes, combined with a fixed value that adjusts based on the number of abnormal nodes. This approach ensures that the detection algorithm remains robust even when multiple nodes fail simultaneously, preventing false negatives or positives. The device first collects state and identification data from each node, then applies a mathematical model to determine if an abnormality exists. For cases with three or more abnormal nodes, the model incorporates the sum of their numeric values and a fixed adjustment factor to refine the calculation. This method improves accuracy in large-scale networks where multiple failures may occur. The fixed value ensures the equation adapts dynamically to the scale of the abnormality, maintaining detection reliability.
5. A non-transitory and computer-readable medium storing a program for causing a calculation device to execute processing comprising: calculating coefficients of an equation, the coefficients corresponding to abnormal transmission nodes, each having an abnormality among a plurality of transmission nodes in a distributed processing system, based on a numeric value including state information of the abnormal transmission nodes and identification information for identifying the abnormal transmission nodes; transmitting the coefficients to a reception node, wherein the reception node extracts the numeric value from a solution of the equation using the coefficients and controls the distributed processing system based on the numeric value.
This invention relates to distributed processing systems and addresses the challenge of identifying and managing abnormal transmission nodes within such systems. The system involves a calculation device that processes state information from multiple transmission nodes to detect and analyze abnormalities. The calculation device calculates coefficients for an equation that represents the state of abnormal nodes, using numeric values derived from their state information and unique identification data. These coefficients are then transmitted to a reception node, which uses them to solve the equation and extract the original numeric values. The reception node leverages these values to monitor and control the distributed processing system, ensuring proper operation by addressing detected abnormalities. The approach enables efficient diagnosis and management of node failures or irregularities, improving system reliability and performance. The solution is implemented via a computer-readable program stored on a non-transitory medium, ensuring scalability and adaptability across different distributed processing environments.
6. The non-transitory and computer-readable medium according to claim 5 , wherein, when a number of transmission nodes having the abnormality is one, the program causes the calculation device to execute processing including transmitting the numeric value including the state information of the transmission nodes having the abnormality and the identification information for identifying the transmission nodes having the abnormality to the reception node as the coefficient.
This invention relates to a system for monitoring and transmitting state information of transmission nodes in a network, particularly focusing on identifying and reporting abnormalities in individual nodes. The system addresses the challenge of efficiently detecting and communicating node failures or irregularities to a central reception node, ensuring reliable network operation. The invention involves a computer-readable medium storing a program that, when executed, enables a calculation device to monitor transmission nodes for abnormalities. When a single transmission node exhibits an abnormality, the program processes and transmits a numeric value to a reception node. This numeric value includes state information describing the abnormality and identification information uniquely identifying the problematic node. The numeric value serves as a coefficient in the transmission process, allowing the reception node to decode and interpret the abnormality data. The system ensures that even in cases where only one node is faulty, the reception node receives precise diagnostic information, enabling targeted troubleshooting. The use of a numeric value as a coefficient simplifies data transmission while maintaining the integrity of the transmitted information. This approach is particularly useful in large-scale networks where individual node failures must be quickly identified and addressed to maintain overall system performance.
7. The non-transitory and computer-readable medium according to claim 5 , wherein, when a number of transmission nodes having the abnormality is two, the program causes the calculation device to perform processing including calculating the coefficients of a quadratic equation based on two numeric values each including the state information and the identification information of the respective transmission nodes having the abnormality.
This invention relates to a system for detecting and analyzing abnormalities in a network of transmission nodes, such as sensors or communication devices, where the nodes report state information and identification data. The problem addressed is accurately identifying and localizing abnormalities when multiple nodes exhibit issues, particularly when the number of affected nodes is exactly two. The solution involves a computer-readable medium storing a program that, when executed, enables a calculation device to process data from these nodes. For two nodes with abnormalities, the program calculates coefficients of a quadratic equation using numeric values derived from each node's state information and identification data. This mathematical approach allows for precise determination of the nature and location of the abnormality, improving diagnostic accuracy in network monitoring systems. The quadratic equation coefficients are derived from the combined state and identification data of the two affected nodes, enabling the system to model and resolve the abnormality more effectively than traditional methods. This technique is particularly useful in large-scale networks where multiple nodes may fail simultaneously, requiring advanced analytical methods to distinguish between correlated and independent failures.
8. The non-transitory and computer-readable medium according to claim 5 , wherein, when a number of transmission nodes having the abnormality is three or more, the program causes the calculation device to perform calculating the coefficients of the equation based on a sum value of the numeric value including the state information and the identification information of the respective transmission nodes having the abnormality and a fixed value in accordance with the number of transmission nodes having the abnormality.
This invention relates to a computer-readable medium storing a program for detecting and analyzing abnormalities in a network of transmission nodes. The problem addressed is the need for an efficient and accurate method to identify and quantify abnormalities across multiple nodes in a network, particularly when three or more nodes exhibit irregular behavior. The program, when executed by a calculation device, calculates coefficients for an equation used to assess abnormalities. The equation is based on a sum value derived from numeric values associated with state information and identification information of the affected nodes. If three or more nodes exhibit abnormalities, the calculation incorporates a fixed value that adjusts based on the number of abnormal nodes. This ensures that the analysis accounts for the scale of the issue, improving detection accuracy. The program also includes functionality to determine whether a node is abnormal by comparing its state information against predefined criteria. If an abnormality is detected, the node is flagged, and its data is used in the subsequent coefficient calculation. The fixed value adjustment ensures that the analysis remains robust even as the number of abnormal nodes increases, preventing false negatives or positives. This approach enhances network monitoring by providing a scalable and precise method for identifying and quantifying abnormalities across multiple nodes, improving overall system reliability.
9. An information processing method for a computer having a memory and a processor coupled to the memory, the method comprising: calculating coefficients of an equation, the coefficients corresponding to abnormal transmission nodes, each having an abnormality among a plurality of transmission nodes in a distributed processing system, based on a numeric value including state information of the abnormal transmission nodes and identification information for identifying the abnormal transmission nodes; and transmitting the coefficients to a reception node, wherein the reception node extracts the numeric value from a solution of the equation using the coefficients and controls the distributed processing system based on the numeric value.
This invention relates to distributed processing systems and addresses the challenge of detecting and managing abnormal transmission nodes within such systems. The method involves calculating coefficients for an equation that represents the state of abnormal nodes, where these nodes exhibit irregular behavior. The coefficients are derived from a numeric value that includes both the state information of the abnormal nodes and their unique identification information. Once calculated, these coefficients are transmitted to a reception node. The reception node then uses the coefficients to solve the equation, extracting the original numeric value, which contains the state and identity of the abnormal nodes. This extracted information is then used to control and manage the distributed processing system, allowing for targeted intervention or correction of the identified abnormalities. The approach enables efficient detection and handling of node failures or anomalies without requiring direct communication with each node, improving system reliability and performance.
10. The information processing method according to claim 9 , wherein if a number of transmission nodes having the abnormality is one, transmitting the numeric value including the state information of the transmission nodes having the abnormality and the identification information for identifying the transmission nodes having the abnormality to the reception node as the coefficient.
This invention relates to an information processing method for detecting and transmitting abnormalities in a network of transmission nodes. The method addresses the challenge of efficiently identifying and reporting node failures in a distributed system, ensuring reliable communication and quick recovery. The method involves monitoring transmission nodes for abnormalities, such as failures or performance degradation. When an abnormality is detected, the system generates a numeric value that encodes state information about the affected nodes. This numeric value serves as a coefficient in subsequent data transmissions. If only one transmission node exhibits an abnormality, the numeric value includes both the state information of the faulty node and its identification information. This allows the receiving node to quickly determine which node is malfunctioning and take corrective action. The method ensures minimal overhead by embedding the abnormality data within existing communication protocols, avoiding the need for separate error-reporting channels. The encoded numeric value is transmitted to a reception node, which decodes it to identify the problematic node and its state. This approach improves network resilience by enabling rapid fault detection and isolation, reducing downtime and improving system reliability. The solution is particularly useful in large-scale distributed systems where manual monitoring is impractical.
11. The information processing method according to claim 9 , wherein if a number of transmission nodes having the abnormality is two, calculating the coefficients of a quadratic equation based on two numeric values including the state information and the identification information of the respective transmission nodes having the abnormality.
This invention relates to information processing in network systems, specifically for detecting and analyzing abnormalities in transmission nodes. The problem addressed is the need for efficient and accurate identification of abnormal nodes in a network, particularly when multiple nodes exhibit issues simultaneously. The solution involves a method for processing state information and identification information from transmission nodes to determine the presence and nature of abnormalities. The method includes monitoring transmission nodes for abnormalities and collecting state information and identification information from those nodes. When two nodes are identified as having abnormalities, the method calculates coefficients of a quadratic equation based on the state and identification information of these nodes. This quadratic equation is then used to analyze the relationship between the nodes and their abnormalities, enabling more precise fault detection and diagnosis. The approach leverages mathematical modeling to distinguish between different types of network issues, improving the accuracy of abnormality detection in complex network environments. The method can be applied in various network configurations, including those with multiple interconnected nodes, to enhance system reliability and performance.
12. The information processing method according to claim 9 , wherein if a number of transmission nodes having the abnormality is three or more, calculating the coefficients of the equation based on a sum value of the numeric value including the state information and the identification information of the respective transmission nodes having the abnormality and a fixed value in accordance with the number of transmission nodes having the abnormality.
This invention relates to information processing in network systems, specifically for detecting and analyzing abnormalities in transmission nodes. The problem addressed is the need for an efficient and accurate method to identify and quantify abnormalities across multiple transmission nodes in a network, particularly when three or more nodes exhibit issues. The method involves monitoring transmission nodes for abnormalities and collecting state information and identification information from those nodes. When three or more nodes are identified as having abnormalities, the system calculates coefficients for an equation used in the analysis. These coefficients are determined based on a sum value derived from the numeric values of the state and identification information of the affected nodes, along with a fixed value that adjusts according to the number of nodes with abnormalities. This approach ensures that the analysis accounts for the scale and severity of the detected issues, providing a more accurate assessment of network performance and reliability. The method enhances fault detection and diagnostic capabilities in network systems by dynamically adjusting the analysis parameters based on the number of affected nodes.
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November 26, 2019
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